Insect pest monitor and product transfer station

Abstract

A domed or curved station for monitoring, capturing, or killing crawling insects, the station having a lower member that may be flat, curved or of varying contour, a curved or angled upper member connected directly or by one or more intermediate members to the lower member, an adhesive on one of the lower member or the upper member, the adhesive either being a tacky substance applied directly to the lower member's upper surface/upper member's lower surface or to another piece of material that this secured to the lower member or upper member, a pesticide which is placed opposite the adhesive on the interior of the station, such as being either applied directly to the curved upper member's lower surface or removably secured to the upper member's lower surface, and an attractant placed in between the upper member and the base member.

Description

FIELD OF THE INVENTION

This invention relates generally to a crawling insect pest monitor and/or product transfer station and more particularly to a device for use on the exterior or interior of a structure for attracting and killing crawling insect pests entering the station. The crawling pest station is designed to monitor for pest activity in the zone of influence and to expose visiting pests to slow-activating pesticide treatments that result in a transfer of pesticide product back to areas that harbor such crawling insect pests. The crawling pest station is designed to protect pesticides and tacky surfaces so as to maximize their effective life-span.

BACKGROUND OF THE INVENTION

Crawling pests, such as the German cockroach (Blattella germanica) are well known to carry disease and are widely considered to be undesirable insects. The German cockroach is a smaller member of the cockroach family and is frequently a pest in food processing and preparation areas including hotels, nursing homes, hotels and other institutions. They are widespread pests capable of surviving in many different parts of the world. They are a type of thigmotactic insect, meaning that they generally react to a physical stimulus, and here prefer tight spaces. Such insects frequently hide out of sight in cracks and crevices that are easy for humans to overlook. Such insects also reproduce rapidly and thus are susceptible to treatments that are slow acting and can be transferred between pests.

Numerous designs of crawling insect pest stations are commercially available, some use large containment areas, while others use wide open, flat surfaces with various forms of attractants and capture mechanisms, such as glue boards. Problems exist with such devices. For example, cockroaches have been observed to contact the edges of glue boards and escape. It was discovered that when such glue boards were rolled into cylinders, cockroaches would fill the underside of the glue roll. Similarly, a flat glue board was placed with its glue side or sticky side down and another flat glue board was placed with its sticky side up. It was found that the entire surface of the glue side down board was filled while only the edges of the sticky side up board were filled. Thus, it is desirable to provide a crawling insect monitor that is directed to crawling insets who desire small, narrow, or covered spaces.

Many of the currently available crawling insect pest stations also leave the glue surface or the pesticide surface exposed to environmental conditions such as light, water and physical objects that could impact effectiveness. This also leaves potentially hazardous substances typically found in glues and pesticides exposed to potential human contact. This also exposes the pesticides and glues to other physical contacts that may erode their presence and thus minimize their effectiveness. It is therefore also desirable to provide an attraction station having features that are effective at concealing and protecting the attracting, trapping, and killing areas of the station.

It is further desirable to provide an attraction station that maximizes the effectiveness of pesticides and allows for safe monitoring and killing of crawling insects while providing a dual action treatment that either captures the crawling insect or exposes the insect to pesticide.

SUMMARY OF THE INVENTION

In one embodiment, the invention is a crawling pest monitor and a product transfer station designed to hold and protect a pest attractant, a pest trapping mechanism and a pesticide. The crawling pest station is designed to monitor for pest activity in the zone of influence and expose visiting pests to slow-acting pesticide treatments that result in a transfer of pesticide product back to harborage areas.

A domed container having a base member which may be flat, curved or of varying contour, a curved or angled upper member connected directly or by one or more intermediate members to the base member, a tacky surface on one of the base member or the upper member, the tacky surface either being a tacky substance applied directly to the base member's upper surface/upper member's lower surface or to another piece of material that this secured to the base member or upper member, a pesticide which is placed opposite the tacky surface on the interior of the station, such as being either applied directly to the curved upper member's lower surface or removably secured to the upper member's lower surface, and an attractant placed in between the upper member and the base member.

In another embodiment, the invention is a wall-mounted attraction station for killing crawling insects. The station includes at least one member mounted to a wall, preferably removably mounted to the wall. This may be accomplished with a station that includes a base member that is secured to the wall by screws, tape, glue or other means. Alternatively, the base member may releasably connect to a second base member which is secured to the wall. For example, the station's base member may slide into the second base member so as to allow the station to be monitored easily, cleaned, replaced or refreshed as necessary.

It is further included to provide an attraction station that protects a sensing device that senses the presence of crawling insects that interact with the attraction station or that crawl in the vicinity of the attraction station. The attraction station can serve as a physical filter to reduce false positive signals from the sensing device and maximize signals related to crawling pest activity in the vicinity.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of an insect monitoring station according to aspects of the invention.

FIG. 2 is a side elevation view of the insect monitoring station of FIG. 1.

FIG. 3 is a top plan view of the insect monitoring station of FIG. 1.

FIG. 4 is another perspective view of the insect monitoring station in a partially open configuration.

FIG. 5 is perspective view of bottom member of the insect monitoring station according to aspects of the invention.

FIG. 6 is a perspective view of a top member of the insect monitoring station according to aspects of the invention.

FIG. 7 is a bottom plan view of the top member of FIG. 6.

FIG. 8 is a perspective view of a base member of the insect monitoring station according to aspects of the invention.

FIG. 9 is a perspective view of yet another embodiment of an insect monitoring station according to aspects of the invention.

Various embodiments of the present invention will be described in detail with reference to the drawings, wherein like reference numerals represent like parts throughout the several views. Reference to various embodiments does not limit the scope of the invention. Figures represented herein are not limitations to the various embodiments according to the invention and are presented for exemplary illustration of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The figures show exemplary features and concepts of the invention by illustration. The intent of the preferred embodiments of the invention is to provide features that both attract and kill crawling insects on the interior of a structure in a shortened or finite window of time. The window of time being measured generally from when the crawling insect enters an area, such as the interior or exterior area of the structure, and until the crawling insect is attracted to and killed by the attraction station. The stations can be used to monitor an area to determine if the area has an insect infestation that needs to be addressed with additional methods.

Exemplary features and aspects of the present invention for monitoring, attracting, and killing crawling insects, such as cockroaches, beetles, etc., within a shortened window of time are illustrated in FIGS. 1-9. For example, FIGS. 1-4 show various views of an insect monitoring station 10 according to aspects of the invention. The monitoring station 10 includes a lower housing 12 and an upper housing 30 that are in rotatably communication with one another. As shown in the figures, this may be accomplished by each of the housing members 12, 30 having hinge components 24, 40, which, when connected together, allows the housing members to be rotated in relation to one another. This is best shown with FIGS. 1 and 4. In FIG. 1, the top member 30 is rotated to a closed position where it is in contact or near contact with the lower housing member 12. However, in FIG. 4, the top housing member 30 has been rotated via the hinge to allow access to an interior between the lower and upper members 12, 30.

It should be appreciated that, although the monitoring station 10 is shown to have two housing members each having hinge components 24, 40 that are snapped together to form the hinge, it is contemplated that other configurations allow the members to rotate relative to one another. For example, having portions with an axle, rod, or other member extending therethrough on each of the housing members would allow the members to rotate relative to one another as well. As will be understood, the rotating of the housing members allows access to an interior of the station 10 to monitor, modify, clean, replace, or otherwise manipulate the station 10, as needed.

The lower housing member 12 is shown throughout the figures, and is isolated in FIG. 5. The lower housing member 12 includes a lower surface 14 and an upper surface 18. The lower surface 14 includes a substantially planar portion 16 and a curved or domed portion 15. For example, as shown in FIG. 2, the planar portions 16 are positioned generally at each end of the curved or domed portion 15. The planar portions are not necessary in all embodiments.

Furthermore, it should be noted that the height of the peak of the curved portion 15 of the lower surface 14 has a height 28, which can be defined as the distance between the peak and the planar portions 16, or the peak and the surface to which the insect station is located. It is preferred in some embodiments that the height 28 of the peak of the curved portion 15 be from about ⅛ inches to about ½ inches. More preferably, the height 28 of the peak of the curved portion 15 is about ¼ inches. This height has been determined to be most effective for capturing insects traveling underneath, as will be explained. The width of the curved portion 15 can vary, and is not to be limiting to the invention.

The upper surface 18 of the lower housing member 12 also includes a curved portion 19, which runs substantially parallel with the lower surface 14. This also includes the substantially planar portions.

Other aspects of the lower housing member 12 include a cutout 20 through the upper and lower surfaces of the lower housing member 12, which can include a recessed section 22 generally outlining the cutout 20 and extending only partially through the surfaces. As will be understood, an adhesive 39 can be positioned at the cutout 20 and relative to the lower housing member 12 such that is exposed through the cutout towards the lower surface 14. The adhesive 39, in some embodiments, could be a glue board or other structure with a tacky surface that can be positioned at the cutout 20. For example, it is contemplated that the adhesive 39 could be a glue board that is sized to fit within the recessed portion so that the ledge of the recessed portion 22 contacts a portion of the tacky surface to hold the adhesive 39 in place at the cutout 20. Insects that walk under the domed lower housing member 12 can contact the adhesive, such as by their wings contacting the tacky substance exposed through the cutout 20, and can become stuck thereat to trap the insect. Furthermore, to attract more insects into walking under the domed lower housing, an attractant may be added to the lower surface 14 of the lower housing 12 to lure the insect toward the adhesive 39 exposed at the cutout.

It should further be appreciated that, when only one housing is included, the cutout need not be included, and instead, the adhesive can be positioned directly on the underside of the domed/curved portion 15 of the lower surface 14. However, having the cutout 20 and the upper housing 30 will allow for easier access to the adhesive 39 such that it can be removed, examined, and/or replaced.

Extending from the lower housing member 12 at a side generally opposite the hinge 24 is a plurality of tabs 26. The tabs 26 are spaced apart and are configured to be inserted into a base member 50 to connect the lower housing member 12 thereto, which can temporarily connect the lower housing member 12 to the base member 50. This connection, along with the upper housing member 30, will allow the station 10 to be positioned on generally any surface and at generally any orientation. Therefore, the insect station 10 is not limited in its ability to be used on or around any surface for trapping insects to monitor the level of insect infestation at a particular location.

As mentioned, the insect station 10 shown in the figures also includes an upper housing member 30 rotatably attached to the lower housing member 12. The upper housing member 30 includes a lower surface 32 and an upper surface 36 as well. The lower surface 32 may include portions that are substantially parallel to the lower housing 12, such as having one or more substantially planar portions 34 and a curved portion 33. The curved portion 33 may generally match the curve of the upper and lower surfaces of the lower housing member 12. This is also the case for the upper surface 36, which can include a similar curved portion 37. In addition, the upper housing member 30 includes a hinge portion 40 for communicating and/or interacting with the hinge portion 24 of the lower housing member 12 in order to allow the upper housing 30 to rotate relative to the lower housing. For example, in the figures, the hinge portion 40 of the upper member 30 is shown to have a plurality of rod or axle like members spaced by spacers. The hinged portion 24 of the lower member 12 is shown to have snap or clasping features that are able to snap onto the rods and to be held thereat to allow the rotation to occur.

The underside of the upper member 30 is shown in FIG. 7. As shown, the lower surface 32 can include a boundary section 38 that can be formed by an extruded wall extending away from the lower surface 32. In FIG. 7, this boundary 38 is shown to be positioned generally on the curved portion 33 of the lower surface 32. The boundary 38 can be included as a section to position the adhesive 39, such as the glue board with the tacky surface. Still other types of adhesive materials may be used, such as, but not limited to, sprays, gels, liquids, glues, solids, and the like. The boundary 38 can provide guidance for orienting the adhesive material such that the adhesive will be substantially aligned with the cutout 20 of the lower housing member 12, which will aid in catching more insects as they pass under and/or through the station. It should be appreciated, however, that the boundary 38 need not be included in all embodiments, and that the adhesive could be included in the recessed portion 22 of the lower housing member 12, as has been previously disclosed.

Additional aspects of the upper housing include tabs 42 that are inserted into the base member 50, as well as a central tab or snap member 44. The outer tabs 42 are substantially spaced and aligned with the lower tabs 26 of the lower housing member 12, as is shown in FIG. 3. This allows the pair of tabs 26, 42 to be insertable into the slots 52 of the base member 50, and can aid in the positioning and orientation of the insect monitoring station 10.

Furthermore, the upper housing member 30 can include a central tab 44, which may also be known as a snap member. The central tab includes a protruding portion 46, which is to interact with a cutout 56 in the base body 51, which will removably secure the lower and upper housing member 12, 30 to the base 50. The snap member 44 can be activated by a button 48 of the upper housing 30. The button 48, when depressed, will press the central tab 44 as well. Lowering the tab 44 enough will allow the protruding portion 46 to become disengaged from the base cutout 56, which will allow the lower and upper housing members 12, 30 to be released from the base 50. To re-attach the components, the tabs of the housing members are aligned with the slots of the base 50 and the housing members are inserted until the protruding portion 46 of the central tab 44 is repositioned in the base cutout 56. As the central tab 44 is generally resilient, this will hold the housing members in place relative to the base, such that the monitoring station 10 can be positioned in generally any orientation and at generally any location.

The base 50 is shown in isolation in FIG. 8. As mentioned, the base 50 includes a base body 51. Tab slots 52 are positioned through the body on opposite sides of the snap slot 54. The slots are configured to align with the tabs 26, 42, 44 of the housing members. The cutout 56 is also shown in FIG. 8, and is positioned to receive the protruding member 48 of the central tab 44, which aids in holding the components of the monitoring station together. Also shown in FIG. 8 extending from the ends of the base 50 are securing tabs 58.

The securing tabs or flanges 58 are shown to be curved members, but may take generally any shape or form. Furthermore, the securing tabs 58 are shown to include apertures thereto. The base 50 can be positioned at generally any location to determine if insects are present. For example, the base 50, and thus, the insect station 10, can simply be put on a ground surface, such as the floor, without securing the station 10 in place. However, if the station 10 is to be secured in position, the tabs 58 or other securing means can be utilized. This can be especially helpful when the surface attaching the station to is a ceiling, vertical wall, or other non-horizontal surface. The base 50 can be secured to the surface in a number of ways. For example, in the configuration shown in FIGS. 1-8, the tabs 58 can be used with screws, bolts, hooks, rods, pins, or other connecting or surface penetrating members to extend through the tabs and into the surface. The connection members would hold the base 50 and any connecting housing members in place independent of the orientation thereof. However, this is not to be the only way to secure the station 10 to a surface. For example, adhesives could also be added to the base to removably secure the base 50 to a surface at any orientation. A recess, such as a groove, can be formed into the underside of the base 50 (opposite the snap cutout 56) to receive and house and adhesive, when used. The adhesive could also be placed at the underside of the tabs 58 for removably securing the base to a surface. In any manner, it is to be appreciated that the base 50 and corresponding insect station could be secured to a surface at generally any orientation, configuration, or the like.

The base 50 can take generally any shape as well. For example, FIG. 9 shows a base 50 that is shaped different than the base of FIGS. 1-8. However, the base in FIG. 9 includes many of the same features as those previously disclosed, which allows the base to be used with the housing members to form the insect station as has been disclosed and described.

Therefore, the insect station 10 as has been shown and described provides a hinged book style station, with an upper housing 30 and lower housing 12 hingeably connected to one another such that the housings can be opened. An adhesive is positioned generally between the housings 12, 30, with at least a portion of a tacky part of the adhesive 39 being exposed to and through a lower surface 14 of the lower housing 12. The housings include a curved portion, with the curved portion 15 of the lower surface 14 of the lower housing 12 having a height 28 at the peak of the curve. The height is preferred to be from about ⅛ inches to about ½ inches, and more preferably to be about ¼ inches. This height has been shown to be most effective in catching an insect, such as the wings of the insect, to the adhesive for trapping the insect to the insect station 10.

In use, an adhesive 39 is positioned in the hinged housing members, and a location is determined for determination of a number of insects in an area. A base 50 may be removably secured at the selected location, such as by screws, adhesives, pins, hooks, bolts, rods, or other connecting members to hold the base 50 in place. The housings with the adhesive are attached to the base 50 by aligning the tabs of the housings with the slots of the base 50. This may also include inserting at least one resilient tab with a protruding member to become positioned in at least one cutout of the base 50, wherein the tab and base interact to be held in place.

A selected amount of time is allowed to lapse, and then the station 10 checked to determine the number of insects caught by the station. The number of insects attached to the adhesive can be an alert as to an infestation or to determine if a more aggressive extermination is required to rid the area of the insects. Therefore, the insect station 10 can be used as a monitoring device to alert a user if there is an insect problem at the location of the station 10.

The insect station 10 is small enough to be generally non-noticeable in use, but large enough that the adhesive is able to collect a number of insects to determine if there is an insect problem. The station 10 can also be varied in size to monitor insects and bugs of different sizes.

Furthermore, additional means for attracting insects to the station can be used, such as adding an attractant to the underside of the curved portion or on the surface opposite the curved surface of the lower housing member. Pesticides could also be added on and around the components of the insect station 10. The pesticides could be used to stick to the insects that may not adhere to the tacky surface of the adhesive. The insects would still take the pesticides with them and could pass these on to other insects, thus eliminating a number of insects not caught by the station. Still further, additional tacky surfaces can be provided to attempt to capture a larger number of bugs and insects.

There are many cockroach control products sold, including bait, gel, granule, and aerosol spray formulations. Baits are formulated as granules or solid blocks, gels, or liquids. Some bait products already have the active ingredient in the bait station, and others are packaged as a liquid that is poured into a bait container provided in the package. Gels typically come packaged with a syringe or a tube for dispensing. It is to be appreciated, that the use of varying types and ingredients for the pesticides could be used in order to prevent the buildup of a resistance to the pesticide. Therefore, according to at least some aspects of the invention, it is recommended to rotate use of a pesticide with the insect station when a pesticide is to be included. The present invention is not to be limited to particular pesticides, however, and it is to be appreciated that generally any type of approved pesticide could be used in conjunction with the insect station. Furthermore, the pesticides could be included in, on, and/or around the portions of the insect station, such as a coating on a surface or granules dispersed in the tacky surface of the adhesive.

The components of the insect station can comprise a number of materials, such as rigid materials. For example, the components may comprise molded polymers that are attached to one another. The material used to form the housing may be translucent to allow for visual inspection, if desired. While the station has been described as being made from a molded plastic, it can also be formed from any structurally rigid material such as steel, aluminum, cardstock, wood, or other material. In some embodiments, the housing members may comprise a one-piece molded object or printed object (e.g., 3D printed), wherein the finished product includes the two housing members being rotatable to one another. The opening ability of the housing members, and the removability of the housing members from the base, allows for a simple design that can be inspected, maintained, and serviced with ease. This can include monitoring of the adhesive, replacing the adhesive, and/or replenishing or refreshing the attractants and/or pesticides.

Additional modifications or alternatives to the insect station 10 as shown and described may be included. For example, the insect station 10 can include a first panel or bottom member that is preferably generally planar and has a surface configuration to provide a surface which can be tacky or contain a pesticide. The panel is preferably a flat panel, but may also be curved, formed with angled panels, have a wavy surface or otherwise be formed as desired for the particular crawling insect.

The member can be connected to a top member, which may be one or both of the housings, either directly or through one or more intermediate members. For example, one or more side walls may be included that connect the bottom member to the top member(s). For example, the top member may be connected to the bottom member by another hinge or be slideably connected so as to be easily replaceable. The top member can be curved to include a rolled or domed structure. The space in between the top member and the bottom member can forms an interior that has one or more openings. The interior height between the housing members can be similar to the height of the lower housing curved surface, as previously disclosed.

A pesticide can be applied to a lower surface of the top member. Alternatively, the pesticide may be applied to an upper surface of the bottom member. A tacky or sticky substance, such as an adhesive, can be added opposite the pesticide on the interior of the station 10. In this manner, the pesticide and the sticky substance are contained within the interior, thus increasing their protection from water, light and other potential environmental contaminants. This also helps to minimize the potential for human contact with potentially hazardous surface treatments and maximizes the life of the pesticides used against the crawling insects. As they are on opposite sides of the interior, the pesticide acts with the crawling insect that is not caught by the sticky substance.

According to additional aspects of the invention, the insect station 10 of the invention may be a molded plastic housing. The housing can include a first side and a second side. A thin side wall on the first side acts as a hinge and a snap or other securing means secured at the second side allows for the interior to be accessed as desired. This allows the user to check to see how many insects have been captured and to monitor for insect activity. The material used to form the housing may be translucent to allow for visual inspection, if desired. While the station has been described as being made from a molded plastic, it can also be formed from any structurally rigid material such as steel, aluminum, cardstock, wood, or other material. Preferably, the housing is the size of a deck of cards or half a deck of cards.

An additional aspect of the invention is the provision of an easily removable and replaceable station 10. Preferably, a bottom member of the housing is removably secured to the wall or desired surface. For example, the bottom member may be slidably received in a second base member that is secured to the wall. The second base member may be screwed, glued or otherwise secured to the wall to keep it in place both during use and when the remainder of the station 10 is removed for service or replacement. In this manner, an attractant or other portions of the station 10 can be replaced without needing to replace the entirety of the housing 10. Alternatively, the pesticide or sticky surface may be placed on one or more removably secured chemistry panels. The removably secured chemistry panel may be slidably removable or secured by removable tape, hook and loops, or other means to the interior of the station 10. This allows a user to replace only the desired portion of the station 10.

Still further, it should be appreciated that the insect station 10 of the invention can be used in conjunction with other monitoring systems, such as electronic, remote monitoring systems. The station 10 could interface with such an electronic monitor such that it would reduce or otherwise mitigate false positive signals of the electronic monitors and would maximize signals related to crawling pests. For example, the station 10 could protect or otherwise be positioned in the vicinity of an electronic sensing device, such as those disclosed in U.S. patent application Ser. Nos. 12/414,155, 10/400,952, and 10/400,951, which are hereby incorporated by reference in their entirety. The sensing device generally senses the presence of crawling insects that may interact with the insect station 10 of the invention. This includes any insects that may be within the vicinity of the station. The station 10 of the invention could serve as a physical filter to reduce false positive signals from the sensing device and maximize signals related to the crawling pests in the vicinity. This could be done by the use of a camera sensing the station 10 such that a user can view the number of insects crawling in, on, or around the station 10. Other electronics, such as optical sensors, ultrasonic sensors, proximity sensors, and the like, could be used in conjunction with the station 10 to aid in determining a number of insects in an area, such as that in or around the area of the insect station 10.

Furthermore, a sensor could be operatively connected to the insect station 10 to provide an alert to the electronic sensing system to indicate that an insect has crawled in the area covered by the insect station 10. The alerts would indicate to a user that there is insect activity in or around the insect station such that the user could know to check the insect station for the amount of insects caught.

The combined use and interfacing of the insect station 10 and an electronic sensing system would provide yet another layer of alert, monitoring, and/or data for a user to indicate if there is a problem with insects that may need to be addressed in another manner. Therefore, it is to be appreciated that the combination and/or interfacing of the insect station 10 can be done with generally type of monitoring system used or considered for monitoring the number of crawling insects.

While the crawling insect station 10 here and before described is effectively adapted to fulfill the aforementioned objectives, it is to be understood that the invention is not intended to be limited to the specific preferred embodiments of the aspects disclosed and set forth above. Rather, it is to be taken as including all reasonable equivalents to the subject matter of the appended claims.

Claims

1. A monitoring station for killing crawling insects and monitoring the number of insects in a location, comprising:

a bottom member having an upper surface and a lower surface with a portion of the bottom member curved and having a cutout in the bottom member at the curved portion, and wherein the bottom member including a planar portion adjacent an end of the curve for resting on a surface;

a top member operatively connected to the bottom member, the top member having a top member upper surface and a top member lower surface and being at least partially curved substantially equal to the curved portion of the bottom member;

an adhesive member on at least a portion of the top member lower surface and positioned at the cutout of the bottom member at the curved portions of the bottom and top members, said adhesive configured to at least partially be exposed through the cutout in the bottom member towards the bottom member lower surface and wherein said adhesive is at least partially distanced from the lower surface of the bottom member and curved substantially similar to both the bottom and top members;

wherein the curved portions of the bottom and top members are substantially parallel with one another to create an arched portion raised from the planar portion of the bottom member wherein a crawling insect will interact with the adhesive member when walking under the curved portions of both the top and bottom members.

2. The monitoring station of claim 1, wherein said bottom and top members are hingeably connected to one another.

3. The monitoring station of claim 1, further comprising an insect attractant on at least a portion of the lower surface of the bottom member.

4. The monitoring station of claim 1, wherein said top member comprises a defined area for the adhesive.

5. The monitoring station of claim 1, further comprising a base and wherein the bottom member and top member are releasably connectable to said base.

6. The monitoring station of claim 5, wherein said base is removably securable to a surface.

7. The monitoring station of claim 6, wherein the base comprises a plurality of slots, and the bottom member and top member comprise tabs extending therefrom for being inserted into the slots of the base.

8. The monitoring station of claim 7, wherein said base comprises tabs for removably securing the base to the surface.

9. The monitoring station of claim 1, wherein the curved portion of the bottom member is spaced from substantially ⅛ inches to substantially ½ inches from the planar portion of the bottom member.

10. A monitoring station for killing crawling insects and monitoring the number of insects in a location, comprising:

a housing member having a curved portion and one or more substantially planar portions; and

an adhesive operatively positioned such that the adhesive is exposed towards a lower surface of the curved portion of the housing member via a cutout in the housing member, wherein said adhesive is distanced from the lower surface of the curved portion of the housing member and curved substantially similar to the curved portion;

wherein said housing member comprising a stepped recessed section at the cutout and extending at least partially from an upper surface and towards but not through the lower surface for positioning of the adhesive near the lower surface of the curved portion of the housing member such that the adhesive is exposed;

wherein the curved portion of the housing member creates an arched portion wherein a crawling insect will interact with the adhesive when walking under the arched portion.

11. The monitoring station of claim 10, wherein the lower surface of the curved portion of the housing is from substantially ⅛ inches to substantially ½ inches from the substantially planar portion.

12. The monitoring station of claim 11, wherein the lower surface of the curved portion is substantially ¼ inches from the substantially planar portion.

13. The monitoring station of claim 10, wherein the adhesive is positioned about a perimeter of the cutout.

14. The monitoring station of claim 13, further comprising an upper housing member operatively connected to the housing member.

15. The monitoring station of claim 14, further comprising a base operatively connected to the housing members, wherein said base being removably securable to a surface.

16. A monitoring station for monitoring and killing insects at a location, the station comprising:

a lower housing member comprising a curved portion and a cutout in said curved portion;

an upper housing member comprising a curved portion for interacting with the curved portion of the lower housing member, said upper housing member operatively connected to the lower housing member; and

an adhesive positioned on the upper housing member to be exposed at the cutout of the lower housing member, but distanced away from a lower surface of the lower housing member, said adhesive curved substantially similar to that of both the upper and lower housing members;

wherein the curved portions of the lower and upper housing members are substantially parallel to one another to create an arched portion wherein a crawling insect will interact with the adhesive when walking under the arched portion.

17. The monitoring station of claim 16, further comprising a base operatively connected to the lower and upper housing members for removably securing the housing members to a surface.

18. The monitoring station of claim 17, wherein a lower surface of the curved portion of the lower housing member is from substantially ⅛ inches to substantially ½ inches away from the surface.